Geometrical validation around the Calpha is described, with a new Cbeta measure and
updated Ramachandran plot. Deviation of the observed Cbeta atom from ideal position
provides a single measure encapsulating the major structure-validation information
contained in bond angle distortions. Cbeta deviation is sensitive to incompatibilities
between sidechain and backbone caused by misfit conformations or inappropriate refinement
restraints. A new phi,psi plot using density-dependent smoothing for 81,234 non-Gly,
non-Pro, and non-prePro residues with B < 30 from 500 high-resolution proteins shows
sharp boundaries at critical edges and clear delineation between large empty areas
and regions that are allowed but disfavored. One such region is the gamma-turn conformation
near +75 degrees,-60 degrees, counted as forbidden by common structure-validation
programs; however, it occurs in well-ordered parts of good structures, it is overrepresented
near functional sites, and strain is partly compensated by the gamma-turn H-bond.
Favored and allowed phi,psi regions are also defined for Pro, pre-Pro, and Gly (important
because Gly phi,psi angles are more permissive but less accurately determined). Details
of these accurate empirical distributions are poorly predicted by previous theoretical
calculations, including a region left of alpha-helix, which rates as favorable in
energy yet rarely occurs. A proposed factor explaining this discrepancy is that crowding
of the two-peptide NHs permits donating only a single H-bond. New calculations by
Hu et al. [Proteins 2002 (this issue)] for Ala and Gly dipeptides, using mixed quantum
mechanics and molecular mechanics, fit our nonrepetitive data in excellent detail.
To run our geometrical evaluations on a user-uploaded file, see MOLPROBITY (http://kinemage.biochem.duke.edu)
or RAMPAGE (http://www-cryst.bioc.cam.ac.uk/rampage).
Copyright 2003 Wiley-Liss, Inc.